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Volume 153, Issue 4, Pages 1133-1147 (October 2017)
Dynamics of Proliferative and Quiescent Stem Cells in Liver Homeostasis and Injury Wanlu Cao, Kan Chen, Michiel Bolkestein, Yuebang Yin, Monique M.A. Verstegen, Marcel J.C. Bijvelds, Wenshi Wang, Nesrin Tuysuz, Derk ten Berge, Dave Sprengers, Herold J. Metselaar, Luc J.W. van der Laan, Jaap Kwekkeboom, Ron Smits, Maikel P. Peppelenbosch, Qiuwei Pan Gastroenterology Volume 153, Issue 4, Pages (October 2017) DOI: /j.gastro Copyright © 2017 AGA Institute Terms and Conditions
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Figure 1 Bile ducts could give birth to LGR5 stem cells that were dispensable for organoid initiation and expansion. (A) LGR5 stem cells (green) localized around the portal triad, indicated by anti-GFP immunofluorescence staining: red arrow: LGR5+ cell; 4′,6-diamidino-2-phenylindole (DAPI): blue; LGR5: green. (B) An outline of the experimental strategy used. (C) Representative pictures showing bile duct–derived organoids containing LGR5-expressing cells: red arrow: LGR5+ cell. (D–G) Bile duct isolated from healthy Lgr5-DTR-GFP mice and initiated organoids ex vivo. Then, LGR5-GFP+ and LGR5-GFP− cells were isolated from organoids by FACS for further organoid initiation. Representative flow cytometry plots show that bile duct (D) can give rise to LGR5+ stem cells (E), LGR5-GFP+ stem cells could give rise to both LGR5-GFP+ and LGR5-GFP− cells (E, F), and LGR5-GFP− cells could give birth to LGR5-GFP+ cells (E, G). (H) A schematic of the Lgr5-DTR-GFP transgenic mouse model used. (I) Bile ducts isolated from Lgr5-DTR-GFP mice initiated organoids and were further treated with DT for LGR5 depletion as indicated in the scheme. (J) DT efficiently depleted LGR5-GFP+ cells (n = 3, *P < .05). (K) Representative microscopic pictures of control (CTR) and LGR5-depleted (DT) organoids. Original magnifications were 40×. (L) LGR5-depleted organoids showed similar reinitiating efficiency compared with control group (n = 3, P = NS. NS, not significant). (M) Bile ducts isolated from Lgr5-DTR-GFP transgenic mice were directly treated with DT to initiate organoids as indicated in the scheme. (N) The organoid reinitiation efficiency for control and LGR5-depleted groups (n = 21, P = NS). (O) Depletion of LGR5 stem cells did not influence organoid initiation. Representative flow cytometry (left panel) and microscopic pictures for control and LGR5-depleted organoids, at post day 2 (middle panel) and day 4 (right panel) of DT treatment. CTR, control, without adding DT. Original magnifications were ×40 (n = 3). (P) DT treatment did not affect the initiation of organoids derived from wild-type mouse livers (n = 3). (Q) Progenitor markers were up-regulated on LGR5 depletion (n = 3, *P < .05). Gastroenterology , DOI: ( /j.gastro ) Copyright © 2017 AGA Institute Terms and Conditions
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Figure 2 Localization and characterization of liver LRCs. (A) Representative anti-GFP immunohistochemistry pictures showing that the rtTA/GFP mice liver did not have leaky expression of GFP. Left panel: negative control for GFP staining; right panel: the anti-GFP staining of rtTA/GFP mice liver without dox induction. PV, portal vein. (B–D) Representative immunohistochemistry pictures showing GFP label immediately after dox induction (B), postinduction month 5 (C) and month 7 (D). Red arrows: LRCs. (E–H) Representative immunofluorescence pictures showing that the rtTA/GFP mice liver did not have leaky expression of GFP (E) and expressed GFP label immediately after dox induction (F), postinduction month 5 (G) and month 7 (H). Yellow arrows: LRCs. (I–J) LRCs and non-LRCs were isolated from normal mouse liver by FACS and RNA was isolated directly. Gene expression quantified by qRT-PCR showed that non-LRCs expressed higher levels of Hnf4ɑ and lower level of Ck19, compared with LRCs. Values were normalized against Gapdh expression (n = 3, **P < .01). (K) Representative confocal images for the expression of cholangiocyte marker CK19 in LRCs. CK19: red; DAPI: blue; LRCs: green. Gastroenterology , DOI: ( /j.gastro ) Copyright © 2017 AGA Institute Terms and Conditions
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Figure 3 Liver LRCs were able to initiate organoids. (A) The sorting strategy of LRCs. (B) Serial images showing the outgrowth of a single LRC. Original magnifications were 100×. (C) Transgenic Cag-rtTA/GFP mice were fed with dox water to induce H2B-GFP expression for 1 week, before cessation of 3 to 7 months for chasing as indicated in the scheme. Then, bile ducts were isolated and digested into single-cell suspension, for further duct-LRC/non-LRC isolation. (D) The organoid initiation efficiency of LRCs and non-LRCs from homeostatic liver, isolated from bile duct (n = 3, *P < .05). (E) The organoid initiation efficiency comparison between entire liver-isolated LRCs and bile duct– isolated LRCs (*P < .05). Gastroenterology , DOI: ( /j.gastro ) Copyright © 2017 AGA Institute Terms and Conditions
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Figure 4 Characterizing the extremely quiescent cells that retain the GFP label over 1 year. (A) Representative confocal images showing long-term LRCs (stained with anti-GFP antibody) localized around portal triad, at month 15 post GFP fading. DAPI: blue; LRCs: green. (B) Comparison of the percentages of entire liver- and bile duct–isolated LRCs (n = 3, *P < .05). (C) Representative images showing the outgrowth of a single LRC. Original magnification was 100×. (D) The organoid initiation efficiency of LRCs and non-LRCs from homeostatic liver, isolated from entire liver (n = 4, *P < .05). (E) Freshly isolated LRCs derived from post dox induction month 15 compared with month 5 expressed higher levels of progenitor/stem cell markers, as quantified by qRT-PCR. Values were normalized against Gapdh expression (*P < .05, n = 3). (F) LRCs (freshly isolated, from month 3–15) were enriched of a particular panel of progenitor markers, compared with non-LRCs (*P < .05; **P < .01; n = 6). (G) Compared with freshly sorted LRCs (S) from normal mice livers, gene expression quantified by qRT-PCR showed that LRC-derived organoids (O) expressed higher levels of a particular set of progenitor/stem cell markers (*P < .05; n = 6). (H, I) LRC-derived organoids expressed CD44 (H) and SOX9 (I). DAPI: blue; CD44: yellow; SOX9: red; yellow arrow, LRCs expressed CD44/SOX9 protein. Gastroenterology , DOI: ( /j.gastro ) Copyright © 2017 AGA Institute Terms and Conditions
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Figure 5 LRCs could differentiate toward hepatocyte and cholangiocyte lineages. (A–D) Gene expression of progenitor/stem cell, hepatocyte, and maturation markers in LRC-derived organoids, compared between expansion and differentiation phases. E, expansion; HD, hepatocyte-directed differentiation; CD, cholangiocyte-directed differentiation. Values were normalized against Gapdh expression (*P < .05; **P < .01; ***P < .001; n = 4). (E, F) Representative confocal images for hepatocyte-specific markers: ALB (E, red) and HNF4ɑ (F, yellow). Upper panel: LRC-derived organoids in expansion medium. Middle and lower panels: LRC-derived organoids in hepatocyte differentiation medium. Yellow arrow: cells that expressed ALB/HNF4ɑ protein. (G) Representative confocal images for a cholangiocyte-specific marker, CK19 (red). Upper panel: LRC-derived organoid in expansion medium. Middle and lower panels: LRC-derived organoid in cholangiocyte differentiation medium. Yellow arrow: cells that expressed CK19 protein. (H) Similar to hepatocytes in liver tissue (upper panel; HNF4ɑ: yellow), the differentiated cells after culture in hepatocyte differentiation medium showed larger nuclei (lower panel), compared with undifferentiated cells (middle panel). Yellow scale: 50 μm. Yellow arrow: cell that showed large nucleus. Gastroenterology , DOI: ( /j.gastro ) Copyright © 2017 AGA Institute Terms and Conditions
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Figure 6 LRCs responded to liver injury. (A) Representative FACS results showing that the LRCs shifted toward a relatively lower expression of GFP, on 3 days of CCl4 injury. (B, C) Representative flow cytometry pictures showing that liver LRCs responded to injury indicated by the decreased percentage of GFPbright-LRC population. FSC, forward scatter. (D) Absolute numbers of all 5 paired samples showing that liver LRCs responded to injury indicated by the decreased percentage of GFPbright-LRC population (*P < .05; n = 5). (E) Representative confocal images showing the expression of proliferation marker KI67 in injured liver. Yellow arrow, LRCs with KI67 expression in injured liver; KI67, red; DAPI, blue; LRCs, green. (F) Gene expression quantified by qRT-PCR showed that injured liver LRCs expressed higher levels of proliferation marker Ki67, compared with homeostatic liver-derived LRCs (*P < .05; n = 3). (G) Organoids cultured from LRCs derived from healthy or CCl4-treated mice liver. (H) Injury stimulated the growth of LRC-derived organoids. The differences of organoid diameters were measured at day 7 (**P < .01), day 11 (*P < .05), and day 15 of culture. Cells analyzed here were derived from 3 groups of mice. (I) The organoid initiation efficiency of LRCs and non-LRCs from injured liver, isolated from entire liver (n = 3, *P < .05). (J) The organoid initiation efficiency of LRCs and non-LRCs from injured liver, isolated from bile duct. (K) Representative pictures of organoids cultured from duct-LRCs derived from healthy or CCl4-treated mice. (L) Injury stimulated the growth of duct-LRC–derived organoids. The differences of organoid diameters were measured at post day 7 and day 11 of culture (*P < .05). Cells analyzed here were derived from 3 groups of mice. Gastroenterology , DOI: ( /j.gastro ) Copyright © 2017 AGA Institute Terms and Conditions
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Figure 7 LRCs expressed low levels of hepatocyte markers, but a high level of progenitor markers. (A) For freshly isolated LRCs and non-LRCs derived from normal and injured mice livers (paired mice), gene expression quantified by qRT-PCR showed that LRCs expressed relatively higher levels of progenitor markers and lower levels of hepatic/mature markers, compared with non-LRCs (*P < .05; **P < .01; n = 5). Values were normalized against Gapdh expression. (B, C) Representative confocal images showing the expression of CD44 (B) and SOX9 (C) in LRCs, on liver injury. CD44, yellow; DAPI, blue; SOX9, red; LRCs, green; yellow arrow, LRCs expressed CD44/SOX9 protein. (D, E) Injured liver-derived LRCs initiated organoids that expressed CD44 (D) and SOX9 (E). DAPI, blue; CD44, yellow; SOX9, red; yellow arrow, cells expressed CD44/SOX9 protein. Gastroenterology , DOI: ( /j.gastro ) Copyright © 2017 AGA Institute Terms and Conditions
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